IL98430A - Camouflage net made from a flame retardant polymeric material - Google Patents

Abstract

Flameproof camouflage netting consists of a perforate polyester fibre substrate material (1) coated with a flame-retarding polymer (5) which in turn, is coated with an IR camouflage paint (6), the novelty being that the substrate material (1) is a woven polyester fibre material incorporating metal fibres (3). - Pref. the polymer coating (5) consists of polyurethane contg. an absorption pigment (6) (pref. 30-40) esp. 35% carbon-based pigment) a flame retardant, (4) (pref. 30%) and pref. 1% fungicide.

Description

A CAMOUFLAGE NET MADE FROM A FLAME RETARDANT POLYMERIC MATERIAL ^S!J "Pnyn Ί»>ΜΑ mma n wy rwnon nen A Camouflage Net The invention relates to a camouflage net made of a flame-retardant material, which as the support material comprises polyester fibres in a perforated structure, which is provided with a coating of a flame-retardant polymer, which in turn is coated with an infrared camouflage paint.

Camouflage nets of this type are used to camouflage buildings and fixed and mobile military installations, such as, for example, vehicles, armoured vehicles and similar. Such camouflage nets should not only provide camouflage from infrared cameras and thermal imaging detectors but also from radar detection. Camouflage should therefore be provided in the infrared, thermal imaging, extremely high and super high radar beam range.

The purpose of the camouflage net is to prevent microwaves which impinge upon an object being reflected thereby. It should also prevent the possibility of identification by sensors in the infrared or thermal imaging range. This means that it should not be possible to recognise or identify the objects to be camouflaged by active video receivers in the 0.7 - 1.8 m window or by passive video receivers in the 3 - 5 μχα and 8 - 14 μιη window. Various camouflage nets are already known for this purpose.

In German Offenlegungsschrift 33 29 264 there is described a material which is absorbent in the microwave range and which is preferably effective in the 10 GHz range. However one disadvantage here is that it has to be applied to metal bases and is consequently unsuitable for flexible support materials.

In German Offenlegungsschrift 31 17 245 a metallised, roughened pile fabric is specified as the support material.

However the metallised pile is present on one side only. This means that the desired reduced reflection of microwaves only occurs with this material if the roughened side of the pile fabric faces the microwave transmitter. However the smooth reverse side possesses an almost undamped high reflective power. Another disadvantage is that this material displays very negative behaviour in the thermal image range (heat absorption).

German Offenlegungsschrift 38 10 121 describes an open structure of polyester fibres as the support material for a camouflage net. However it has been shown that with this development of the camouflage net the object beneath it is still visible as a thermal image. Also the high polymer content, with which the support material is coated, behaves in a very negative manner on the lattice structure or on the jacquard surface of the support material because of a very high level of heat absorption. One further disadvantage is also that in the microwave range it can not be seen that the polymer coating used there has an absorbent effect.

It is now known that in the atmospheric windows around 26 - 40 and 92 - 96 GHz natural objects, such as grass and plants, behave like black body radiators with an emission level of almost one, whereas military objects, such as armoured vehicles, lorries etc made of metal have an emission level of approximately zero and therefore a remission level of approximately one. Therefore the latter are ideal reflectors, with one part of the beam being directed, while one part provides diffused reflection.

This means that with radiometric measurements from above the object to be camouflaged, e.g. a military object, reflects the microwave beam of the sky with a temperature of 30 K at 35 GHz and 100 K at 94 GHz, whereas the environment radiates as a black body radiator with ambient temperature.

The military object therefore behaves like a very cold target in a warm environment, with the temperature contrast being between 240 K and 280 K. In this way it can be detected as a cold body with a microwave radiometer. When the sky is overcast and it is raining the temperature contrast is reduced, but it is still high enough for armoured vehicles to be located with a passive microwave seeker head for the final phase guidance of shells and missiles.

Therefore the object of the present invention is to manufacture a multispectrally effective flame-retardant camouflage net, which gives protection in the visible and near infrared range, displays good damping values over a wide spectrum of the microwave range and is a low emitter in the thermal imaging range. Furthermore the camouflage net should also possess good mechanical strength and flexibility over the widest possible temperature range.

This object is achieved according to the invention in that the support material is a knitted fabric made from polyester fibres, into which metal fibres are inserted.

Surprisingly it has been shown that the construction of the support material specified by the invention combined with, the given coatings possesses both protection in the visible and near infrared range and also good damping values in the microwave region and furthermore also produces such a thermal image that the object to be camouflaged can not be located.

In particular the content of metal fibres ensures such a partial reflection that no hole is produced at this position by complete absorption nor is there any accentuation from the environment. - 3A - 98430/4 More particularly, the present invention provides a camouflage net consisting of a material with flame-retardant characteristics, having a base material consisting of an open-hole structure of polyester fibres which is provided with a coating consisting of a polymer layer of a flame-retardant material provided with absorption pigments which are effective in the microwave range of approximately 10 to 100 GHz, the polymer layer being coated with IR camouflage paint, characterised in that the base material is a knitted fabric of polyester fibres into which metal fibres are inserted and that the absorption pigments are based on carbon and are present in the polymer layer in a proportion of approximately 30-40% by weight. 4 Particularly good values have been produced in practice when the content of the metal fibres, which are accordingly spun into the knitted fabric, is 5 - 15 %, and preferably approx. 10 %.

The best results with respect to the best possible non-location in a very wide range were produced if , in connection with the metal fibres, the size of the holes in the support material is chosen so that they have a diameter or a width or height of 2 -3 mm.

As a result of this development an optimal exchange of heat convection is produced and also the thermal image is so ideal that it is now practically impossible to distinguish the object to be camouflaged from its surroundings.

The given structure in the form specified by the invention enables a good current of air and heat, but the structure is not so open that the object located behind it is visible as a thermal image.

The shape of the holes may be optional, but in practice apertures having at least an approximate diamond shape proved to be the most suitable. By the diamond shape a corresponding reinforcement of the support material and therefore of the camouflage net is achieved, as a result of which high values for the tearing strength and tear growth are obtained.

The holes are advantageously disposed in rows in the support material, with it being possible for the holes to be mutually staggered in successive rows.

Tests have shown that particularly good results are achieved if the fibres are knitted more tightly around the holes or if the sections between the rows of holes are knitted more loosely. - 5 - 98430/2 After coating the support material with flame-proofing, the support material to be treated in this way may be coated with a polymer, e.g., polyurethane, which is provided with absorbent pigments which are preferably effective in the microwave range of 10 to 600 GHz.

In a refinement df the invention the polymer may also be provided with flame-proofing.

The proportion of absorbent pigment substances with a broadband effect in the microwave range of 10-100 GHz is very decisive. The admixture to the polymer is preferably in the magnitude of approximately 30-40% by weight, in particular approximately 35% by weight.

Substances on a carbon base, for example, have proved to be suitable as absorbent pigment substances.

A camouflage net according to the invention is described in more detail below, with reference to an exemplified embodiment and the drawings.

Fig. 1 shows a detailed plan view of the camouflage net according to the invention; Fig. 2 shows a section through the camouflage net according to the invention shown in Fig. 1.

A knitted fabric made of polyester, which, for strengthening purposes, is constructed with diamond-shaped holes 2 in an open structure, is used as the support material 1 for the camouflage net. The aperture widths of the holes are approximately 2-3 mm.

Into the knitted fabric made of polyester fibres are spun up to approximately 10% metal fibres 3. A support material - 6 - 98430/2 constructed in such a way has tearing strength values of 700 N/5 cm and tear growth values of over 60 N/5 cm.

So as to achieve flame-proofing, the support material 1 is coated with a corresponding flame-proofing agent 4 (Fig. 2) and is simultaneously provided with a moisture-repellent agent. The flame-proofing agent should be halogen-free and comply with DIN 4102/Sheet 1. The coating is between 20-30 g/m2. The flame-proofing agent 4 may be applied by foularding, for example.

From Fig. 2 it can be seen that the flame-proofing agent 4 surrounds the knitted fabric on all sides, i.e., even in the holes .

The support material 1 to be pretreated in this way is provided on both sides, i.e., on the front side and on the rear side, with a flame-retardant, absorbent polymer layer 5. Care should be taken so that coating proceeds so that the pores, or holes 2, do not become clogged and that the polymer layer 5 is not so strong that it becomes heated and changes the thermal image diagram.

A highly colourfast and hydrolysis-resistant polyurethane may preferably be used for the polymer. Mineral substances, such as aluminium hydroxide and/or phosphorous nitrogen compounds, for example, may be used as flame-proofing agents. other flame-proofing agents which do not separate dioxin and furan are also possible. A fungicide is also preferably added.

The polymer layer 5 represents the support layer for absorbent pigments 8. The absorbent pigments serve to absorb radar beams in a microwave range of 10-100 GHz. - 7 - 98430/2 A composition of the polymer layer 5 is given below by way of example: To 100 parts polymer in liquid form are mixed 30% by weight flame-proofing agent, 35% by weight absorbent pigments and 1% by weight fungicide. The consistency to be produced for the application of this layer to the support material 1 is achieved by dilution with aromatic solvents.

The layer applied to the support material 1 is preferably dried in a temperature range of approximately 110-130eC.

The polymer coating is approximately 40-45 g/ma.

Finally, a low-emission IR camouflage paint coating 6 is forced or sprayed onto both sides. In this case, the camouflage paint binding system is preferably also provided with a fungicide and flame-proofing agent, and care should be taken to ensure that the size of the holes 2 in the support material 1 is altered not at all, if possible, or at least only slightly.

From Fig. 1 it is also evident that the density of the knitted polyester fibres is irregular. In the region of the holes 2, the density is greater than in the sections 7 of adjacent rows of holes 2, where the fibres are knitted more loosely.

The following measurement results could be achieved with the camouflage net described above: 1. Radar Damping values of from -3 dB to -8 dB per m2 are adopted because of the assumed radiation in the vegetative outer field, taking into account the cloud cover, the ambient - 7A - 98430/1 temperature, and the ground vegetation. The camouflage net described herein was surveyed as a pilot scheme in a determined aspect angle (e.g., 45 degrees) and azimuth angle of 0 to 360 degrees. 8 The reduction of the linear mean value resulted with 35 GHz = - 11 dB 94 GHz = - 12 dB 2. Thermal image The coating layer of 40 - 45 g/m* did not produce a negative effect in the large-scale experiment in the thermal image, which did not result in any thermal absorption. (The net size was 6 x 8 m. The thermal imaging sensor spacing was approximately 800 m. Lorries at the forest edge were camouflaged. ) Higher coatings and closed coated areas would tend to absorb heat and therefore be visible. 3. Near infrared The low-emission IR camouflage paints applied produce no alteration in the microwave and thermal image range.

Claims (12)

- 9 - 98430/6 WHAT IS CLAIMED IS:

1. A camouflage net consisting of a material with flame-retardant characteristics, having a base material consisting of an open-hole structure of polyester fibfes which is provided with a coating consisting of a polymer layer of a flame-retardant material provided with absorption pigments which are effective in the microwave range of approximately 10 to 100 GHz, the polymer layer being coated with IR camouflage paint, characterised in that the base material is a knitted fabric of polyester fibres into which metal fibres are inserted and that the absorption pigments are based on carbon and are present in the polymer layer in a proportion of approximately 30-40% by weight.

2. A camouflage net according to claim 1, characterised in that 5-15%, preferably approximately 10%, metal fibres are spun into the knitted fabric.

3. A camouflage net according to claim 1, characterised in that the holes of the open structure of the base material have diameters or widths and/or lengths of approximately 2-3 mm.

4. A camouflage net according to claim 1, characterised in that the holes are at least approximately diamond-shaped.

5. A camouflage net according to claim 1, characterised in that the holes are arranged in rows in the base material.

6. A camouflage net according to claim 5, characterised in that the holes are arranged so that they are offset from one another in successive rows. - 10 - 98430/4

7. A camouflage net according to claim 5, characterised in that the fibres are knitted more tightly around the holes.

8. A camouflage net according to claim 7, characterised in that the sections between the rows of holes are knitted more loosely.

9. A camouflage net according to claim 1, characterised in that the polymer layer consists of polyurethane.

10. A camouflage net according to claim 1, characterised in that the polymer layer has an additive for flame protection.

11. A camouflage net according to claim 1, characterised in that approximately 30% by weight flame protection, approximately 1% fungicide, and approximately 35% absorption pigments are contained in 100 parts of the polymer layer.

12. A camouflage net according to claim 1, characterised in that the polymer layer is applied in a thickness of 40-45 g/m2. for the Applicant: WOLFF, BREGMAN AND GOLLER